Microwave dielectric ceramic composition

ABSTRACT

In order to obtain a microwave dielectric ceramic composition having a high dielectric constant ( epsilon r) and a large Q value and having a temperature coefficient of resonance frequency ( tau f) which is close to zero, the present invention is directed to a microwave dielectric ceramic composition expressed by a composition formula of w.Li2O-x.CaO-y.Sm2O3-z.TiO2, wherein w, x, y and z are respectively in the ranges of 0.0 mole % &lt;w&lt;/=25.0 mole %, 0.0 mole % &lt;/=x&lt;/=50.0 mole %, 0.0 mole % &lt;y&lt;/=30.0 mole %, 0.0 mole % &lt;z&lt;/=80.0 mole %, where w+x+y+z=100 mole %, and not more than 10 parts by weight of any one of MnO2, Bi203, Nb2O5, Ta2O5 and SnO2 is contained therein.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to dielectric ceramic compositions for use as resonators employed in a microwave frequency band of several gigahertz.

2. Description of the Prior Art

The recent increase in information density results in a progressively increased signal frequency used. Particularly, a microwave having a frequency of several hundred megahertz to several gigahertz is used in various information transmission media such as satellite communication, microwave remote communication, broadcasting, and further a microwave remote recognition system.

A resonator or a filter for a transmitter-receiver is indispensable in such media, and is manufactured using a dielectric ceramic material adequately performing a function in its high frequency band.

Examples of this type of dielectric ceramic material conventionally used include dielectric ceramic materials of a BaO--TiO₂ system, a Ba {Zn_(1/3) (Nb.Ta)_(2/3) } O₃ system, a (Zr.Sn) TiO₄ system, and the like for the reason that the high frequency characteristics are relatively good.

In the resonator or the like made of the dielectric ceramic material, however, if the dielectric constant of its dielectric is taken as ε, the wavelength of an electromagnetic wave propagating through the dielectric is small, i.e., 1/√ε. Consequently, the higher the dielectric constant ε of the material used is, the smaller the size of the resonator or the like can be.

However, the dielectric constant of the above described dielectric ceramic material is generally low, i.e., 20 to 40. Accordingly, the size of the resonator is increased in a microwave frequency band of 1 to 3 GHz.

On the other hand, examples of a material having a high dielectric constant include SrTiO₃ (ε; about 300) and CaTiO₃ (ε; about 180). However, the temperature coefficients of resonance frequency εf of the materials are respectively very high, i.e., +1700 ppm/°C. and +800 ppm/°C., so that the stable use cannot be expected.

Examples of a method for bringing the temperature coefficient τf of such a dielectric composition near zero include a method of mixing a dielectric ceramic material having a high dielectric constant and having a temperature coefficient τf which is large on the positive side and a dielectric ceramic material having a high dielectric constant and having a temperature coefficient τf which is large on the negative side.

However, a material having a high dielectric constant ε generally has a temperature coefficient τf which is large on the plus side. Accordingly, it is impossible to find a suitable material having a high dielectric constant and having a temperature coefficient τf which is minus, and it is difficult to make the Q value of the material larger as a microwave dielectric ceramic material.

In recent years, therefore, as a material solving the problems, a dielectric ceramic composition expressed by a composition formula of w.LiO₂ -x.CaO-y.D₂ O₃ -z.TiO₂ (where D is Sm or Nd) which is disclosed in U.S. Pat. No. 5,188,993 . It is known that with respect to the dielectric ceramic material, good dielectric properties are obtained when the ranges of w, x, y and z are respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50.0 mole %, 0.0 mole % <y≦20.0 mole % and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole % in the above described composition formula.

In a dielectric ceramic composition in a case where D is Nd in the above described composition formula, that is, a dielectric ceramic composition expressed by a composition formula of w.LiO₂ -x.CaO-y.Nd₂ O₃ -z.TiO₂, it becomes clear that good dielectric properties are obtained even if a mixture ratio of Nd is more than 20 mole % and not more than 30 mole %, that is, 0.0 mole % <y≦30.0 mole %, and it can be expected that the same effect is obtained even if Nd is replaced with Sm.

Although the above described composition expressed by a composition formula of a w.LiO₂ -x.CaO-y.D₂ O₃ -z.TiO₂ (where D is Sm or Nd) exhibits superior properties to the conventional materials, a further improvement in the properties has been desired.

SUMMARY OF THE INVENTION

In view of the above described points, an object of the present invention is to obtain a dielectric ceramic composition having a high dielectric constant and a large Q value and having a temperature coefficient of resonance frequency τf which is close to zero.

In a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Sm₂ O₃ -z.TiO₂, a first microwave dielectric ceramic composition according to the present invention is characterized in that the ranges of w, x, y and z are respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % <x≦50.0 mole %, 0.0 mole % <y≦30.0 mole % and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %, and not more than 10 parts by weight of any one of MnO₂, Bi₂ O₃, Nb₂ O₃, Ta₂ O₅ and SnO₂ is contained therein.

Not more than 10 parts by weight of any one of manganese oxide (MnO₂), bismuth oxide (Bi₂ O₃), niobium oxide (Nb₂ O₃), tantalum oxide (Ta₂ O₅) and tin oxide (SnO₂) is contained in a mixture of lithium oxide (Li₂ O ), calcium oxide (CaO), samarium oxide (Sm₂ O₃) and titanium oxide (TiO₂), thereby to obtain a microwave dielectric ceramic composition having a high dielectric constant εr and a large Q value and having a low temperature coefficient τf.

In a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y. Sm₂ O₃ -z.TiO₂, a second microwave dielectric ceramic composition according to the present invention is characterized in that the ranges of w, x, y and z are respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50.0 mole %, 0.0 mole % <y≦30.0 mole % and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %, and not more than 5 parts by weight of any one of ZnO, CoO, NiO and MgO is contained therein.

Not more than 5 parts by weight of any one of ZnO, CoO, NiO and MgO is contained in a mixture of lithium oxide (Li₂ O), calcium oxide (CaO), samarium oxide (Sm₂ O₃) and titanium oxide (TiO₂), thereby to obtain a microwave dielectric ceramic composition having a high dielectric constant εr and a large Q value and having a low temperature coefficient τf.

In a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Nd₂ O₃ -z.TiO₂, a third microwave dielectric ceramic composition according to the present invention is characterized in that the ranges of w, x, y and z are respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50.0 mole %, 0.0 mole % <y≦30.0 mole % and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %, and not more than 10 parts by weight of any one of MnO₂, Bi₂ O₃, Nb₂ O₅, Ta₂ O₅ and SnO₂ is contained therein.

Not more than 10 parts by weight of any one of MnO₂, Bi₂ O₃, Nb₂ O₅, Ta₂ O₅ and SnO₂ is contained in a mixture of lithium oxide (Li₂ O), calcium oxide (CaO), neodymium oxide (Nd₂ O₃) and titanium oxide (TiO₂), thereby to obtain a microwave dielectric ceramic composition having a high dielectric constant εr and a large Q value and having a low temperature coefficient τf.

In a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Nd₂ O₃ -z.TiO₂, a fourth microwave dielectric ceramic composition according to the present invention is characterized in that the ranges of w, x, y and z are respectively 0.0 mole % <w≦25.0 mole %, 0 0 mole % ≦x≦50 0 mole % 0.0 mole % <y≦30.0 mole %, and 0.0 mole % <z≦80 0 mole % where w+x+y+z=100 mole %, and not more than 5 parts by weight of any one of ZnO, CoO, NiO and MgO is contained therein.

Not more than 5 parts by weight of any one of ZnO, CoO, NiO and MgO is contained in a mixture of lithium oxide (Li₂ O), calcium oxide (CaO), neodymium oxide (Nd₂ O₃) and titanium oxide (TiO₂), thereby to obtain a microwave dielectric ceramic composition having a high dielectric constant εr and a large Q value and having a low temperature coefficient τf.

As described in the foregoing, according to each of the embodiments of the present invention, it is possible to obtain a microwave dielectric ceramic composition having a high dielectric constant and a large Q value and having a temperature coefficient τf which is close to zero in a microwave frequency band.

Consequently, a resonator or the like constituted by the above described microwave dielectric ceramic composition according to the present invention can be miniaturized and can be employed under high reliability even in the use conditions in which temperature changes are relatively large.

The foregoing and other objects, features, aspects and advantages of the present invention will become more apparent from the following detailed description of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

In order to make the present invention clearer, suitable embodiments of the present invention will be described in detail. However, the present invention is not limited to the embodiments and also includes a range which is obvious from its true intent.

Description is now made of a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Sm₂ O₃ -z.TiO₂ according to a suitable embodiment of the present invention.

In manufacturing processes of the microwave dielectric ceramic composition according to the suitable embodiment, powders of Li₂ CO₃, CaCO₃, Sm₂ O₃ and TiO₂ which are raw materials were first prepared, and were weighed and mixed so as to be predetermined molar fractions, respectively.

As one example, the powders of Li₂ O, CaO, Sm₂ O₃ and TiO₂ are so weighed and mixed that the respective molar fractions are 9 mole %, 16 mole %, 12 mole % and 63 mole %. 3 parts by weight of MnO₂ is weighed and mixed as manganese oxide, as shown in a column of a sample number 3 in Table 1 as appended later.

The mixed powder was then blended in a ball mill over 5 to 20 hours by the wet blending using alcohol and then, was calcined at temperatures of 700° to 1000°C. for 1 to 5 hours. Thereafter, the calcined powder thus obtained was ground using the ball mill for 2 to 50 hours.

The ground calcined powder was then granulated after an organic binder such as polyvinyl alcohol was added thereto, was classified and then, was formed so as to have predetermined dimensions and a predetermined shape by applying a pressure of 2000 to 3000 kg/cm². A forming member obtained was sintered at temperatures of 1200 to 1400°C. for 1 to 5 hours and then, both surfaces of the sintered forming member were so polished that the thickness of the sintered forming member becomes approximately one-half of the diameter thereof, thereby to complete a sample to be measured having the above described composition.

The dielectric constant (εr), the Q value and the temperature coefficient of resonance frequency (τf) were measured in the neighborhood of the measurement frequency of 3 GHz using the Hakki-Coleman method with respect to the sample thus completed. The results of the measurements are shown in Table 1.

Samples to be measured which differ in mixture ratio in a case where MnO₂ is mixed or Bi₂ O₃ is mixed in place of MnO₂ as bismuth oxide as shown in respective columns of the other sample numbers in Table 1 were prepared in the same manner, and the dielectric constant (εr), the Q value and the temperature coefficient of resonance frequency (τf) were measured in the neighborhood of the measurement frequency of 3 GHz with respect to the samples to be measured. Table 1 also shows the results of the measurements.

                                      TABLE 1                                      __________________________________________________________________________     Dielectric Properties of Ceramics of a w · Li.sub.2 O - x             · CaO -                                                               y · Sm.sub.2 O.sub.3 - z · TiO.sub.2 System (additive;       MnO.sub.2, Bi.sub.2 O.sub.3)                                                        composition ratio                                                                               part                                                     sample                                                                              (mole %)         by                                                       number                                                                              w  x  y  z  additive                                                                            weight                                                                             εr                                                                         Q   τf                                       __________________________________________________________________________     1*   9  16 12 63 no   0   105 1500                                                                               +9                                           2    9  16 12 63 MnO.sub.2                                                                           1   105 1600                                                                               +10                                          3    9  16 12 63 "    3   100 1740                                                                               +12                                          4    9  16 12 63 "    5   96  1700                                                                               +6                                           5    9  16 12 63 "    10  92  1520                                                                               -6                                           6*   9  16 12 63 "    15  84   470                                                                               -25                                          7    9  16 12 63 Bi.sub.2 O.sub.3                                                                    1   104 1700                                                                               +16                                          8    9  16 12 63 "    3   104 1800                                                                               +14                                          9    9  16 12 63 "    5   100 1640                                                                               +5                                           10   9  16 12 63 "    10  97  1530                                                                               -9                                           11*  9  16 12 63 "    15  92   350                                                                               -22                                          12*  9  17 11 63 no   0   108 1200                                                                               +29                                          13   9  17 11 63 MnO.sub.2                                                                           3   99  1850                                                                               +21                                          14   9  17 11 63 "    5   96  1600                                                                               +13                                          15*  9  17 11 63 "    15  80   350                                                                               +7                                           16   9  17 11 63 Bi.sub.2 O.sub.3                                                                    3   109 1650                                                                               +27                                          17   9  17 11 63 "    5   106 1530                                                                               +18                                          18*  9  17 11 63 "    15  88   320                                                                               +12                                          19*  8  17 12 63 no   0   104 1500                                                                               +7                                           20   8  17 12 63 MnO.sub.2                                                                           3   95  1050                                                                               +4                                           21   8  17 12 63 "    5   93  1960                                                                               +3                                           22*  8  17 12 63 "    15  78   430                                                                               -21                                          23   8  17 12 63 Bi.sub.2 O.sub.3                                                                    3   101 1730                                                                               +8                                           24   8  17 12 63 "    5   98  1680                                                                               -5                                           25*  9  17 11 63 "    15  80   390                                                                               +12                                          26*  13 16 11 60 no   0   110 1570                                                                               +27                                          27   13 16 11 60 MnO.sub.2                                                                           3   102 1010                                                                               +19                                          28   13 16 11 60 Bi.sub.2 O.sub.3                                                                    3   109 1630                                                                               +25                                          29*  13 10 14 63 no   0   95  1500                                                                               +5                                           30   13 10 14 63 MnO.sub.2                                                                           3   91  2100                                                                               -6                                           31   13 10 14 63 Bi.sub.2 O.sub.3                                                                    3   93  1710                                                                               -4                                           __________________________________________________________________________      Note)                                                                          In Table 1, asterisked samples are samples beyond the range of the presen      invention, and the unit of τf is ppm/°C.                      

As can be seen from Table 1, the dielectric constant εr is slightly decreased, while the Q value is effectively increased by containing MnO₂ or Bi₂ O₃. Particularly, the Q value takes maximum value when the content is in the vicinity of 3 to 5 parts by weight. However, the Q value is rapidly decreased if the content exceeds 10 parts by weight.

On the other hand, the absolute value of the temperature coefficient τf is low, i.e., not more than 30 ppm/°C., thereby to obtain a good ceramic composition.

The ranges of w, x, y and z in the microwave dielectric ceramic composition having a composition according to the present embodiment can be respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % <x≦50.0 mole %, 0.0 mole % <y≦30.0 mole %, and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %.

In the present embodiment, the content of MnO₂ or Bi₂ O₃ (bismuth dioxide) is adjusted, thereby to make it possible to obtain a dielectric suitable for a microwave band. The content is thus suitably adjusted, thereby to make it possible to make the Q value large, although the dielectric constant is slightly decreased in a state where the temperature coefficient is kept low.

Although in the present embodiment, manganese dioxide is used as manganese oxide, the present invention is not limited to the same. Even if manganese oxide which differs in valence such as manganese monoxide or manganese sesquioxide is used, exactly the same effect is produced. The same is true for bismuth oxide.

Description is now made of an embodiment in which in a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Sm₂ O₃ -z.TiO₂, Nb₂ O₅ or Ta₂ O₅ is used as an additive.

The additive is formed in exactly the same manner as that in the above described embodiment. Samples to be measured which differ in mixture ratio in a case where Nb₂ O₅ or Ta₂ O₅ is mixed as shown in respective columns of sample numbers in Table 2 were prepared, and the dielectric constant (εr), the Q value and the temperature coefficient of resonance frequency (τf) were measured in the neighborhood of the measurement frequency of 3 GHz with respect to the samples to be measured. Table 2 also shows the results of the measurements.

                                      TABLE 2                                      __________________________________________________________________________     Dielectric Properties of Ceramics of a w · Li.sub.2 O - x             · CaO -                                                               y · Sm.sub.2 O.sub.3 - z · TiO.sub.2 System (additive;       Nb.sub.2 O.sub.5, Ta.sub.2 O.sub.5)                                                 composition ratio                                                                               part                                                     sample                                                                              (mole %)         by                                                       number                                                                              w  x  y  z  additive                                                                            weight                                                                             εr                                                                         Q   τf                                       __________________________________________________________________________     1*   9  16 12 63 no   0   105 1500                                                                               +9                                           2    9  16 12 63 Ta.sub.2 O.sub.5                                                                    1   105 1650                                                                               +11                                          3    9  16 12 63 "    3   103 1870                                                                               +15                                          4    9  16 12 63 "    5   100 1700                                                                               +7                                           5    9  16 12 63 "    10  98  1550                                                                               -10                                          6*   9  16 12 63 "    15  88   400                                                                               -25                                          7    9  16 12 63 Nb.sub.2 O.sub.5                                                                    1   104 1700                                                                               +11                                          8    9  16 12 63 "    3   103 1800                                                                               +9                                           9    9  16 12 63 "    5   101 1640                                                                               +6                                           10   9  16 12 63 "    10  95  1530                                                                               -12                                          11*  9  16 12 63 "    15  84   350                                                                               -22                                          12*  9  17 11 63 no   0   108 1200                                                                               +29                                          13   9  17 11 63 Ta.sub.2 O.sub.5                                                                    3   105 1900                                                                               +21                                          14   9  17 11 63 "    5   103 1500                                                                               +15                                          15*  9  17 11 63 "    15  84   400                                                                               +9                                           16   9  17 11 63 Nb.sub.2 O.sub.5                                                                    3   104 1850                                                                               +20                                          17   9  17 11 63 "    5   100 1430                                                                               +14                                          18*  9  17 11 63 "    15  85   380                                                                               +8                                           19*  8  17 12 63 no   0   104 1500                                                                               +7                                           20   8  17 12 63 Ta.sub.2 O.sub.5                                                                    3   100 2010                                                                               +5                                           21   8  17 12 63 "    5   98  1830                                                                               +4                                           22*  8  17 12 63 "    15  84   470                                                                               -14                                          23   8  17 12 63 Nb.sub.2 O.sub.5                                                                    3   99  1830                                                                               +6                                           24   8  17 12 63 "    5   96  1710                                                                               -3                                           25*  9  17 11 63 "    15  79   430                                                                               -21                                          26*  13 16 11 60 no   0   110 1570                                                                               +27                                          27   13 16 11 60 Ta.sub.2 O.sub.5                                                                    3   108 1920                                                                               +24                                          28   13 16 11 60 Nb.sub.2 O.sub.5                                                                    3   107 1840                                                                               +22                                          29*  13 10 14 63 no   0   95  1500                                                                               +5                                           30   13 10 14 63 Ta.sub.2 O.sub.5                                                                    3   92  1840                                                                               +3                                           31   13 10 14 63 Nb.sub.2 O.sub.5                                                                    3   91  1810                                                                               -2                                           __________________________________________________________________________      Note)                                                                          In table 2, asterisked samples are samples beyond the range of the presen      invention, and the unit of τf is ppm/°C.                      

As can be seen from Table 2, the dielectric constant εr is slightly decreased, while the Q value is effectively increased by containing Nb₂ O₅ or Ta₂ O₅. Particularly, the Q value takes maximum value when the content is in the vicinity of 3 to 5 parts by weight. However, the Q value is rapidly decreased if the content exceeds 10 parts by weight.

On the other hand, the absolute value of the temperature coefficient τf is low, i.e., not more than 30 ppm/°C., thereby to obtain a good ceramic composition.

The ranges of w, x, y and z in the microwave dielectric ceramic composition having a composition according to the present embodiment can be respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50.0 mole %, 0.0 mole % <y≦30.0 mole %, and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %.

In the present embodiment, the content of Nb₂ O₅ or Ta₂ O₅ is adjusted, thereby to make it possible to obtain a dielectric suitable for a microwave band. The content is thus suitably adjusted, thereby to make it possible to make the Q value large, although the dielectric constant is slightly decreased in a state where the temperature coefficient is kept low.

Description is now made of an embodiment in which in a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Sm₂ O₃ -z. TiO₂ as in the above described embodiment, SnO₂ is used as an additive.

The additive is formed in the same manner as that in the above described embodiment. Samples to be measured which differ in mixture ratio in a case where SnO₂ is mixed as shown in respective columns of sample numbers in Table 3 were prepared, and the dielectric constant (εr), the Q value and the temperature coefficient of resonance frequency (τf) were measured in the neighborhood of the measurement frequency of 3 GHz with respect to the samples to be measured. Table 3 also shows the results of the measurements.

                  TABLE 3                                                          ______________________________________                                         Dielectric Properties of Ceramics of a w · Li.sub.2 O - x             · CaO -                                                               y · Sm.sub.2 O.sub.3 - z · TiO.sub.2 System (additive;       SnO.sub.2)                                                                            composition                                                                    ratio                part                                               sample (mole %)             by                                                 number w     x     y   z   additive                                                                              weight                                                                               εr                                                                          Q    τf                       ______________________________________                                         1*      9    16    12  63  no     0     105  1500 +9                           2       9    16    12  63  SnO.sub.2                                                                             1     102  1860 +7                           3       9    16    12  63  "      3     97   1960 +5                           4       9    16    12  63  "      5     95   1750 +4                           5       9    16    12  63  "      10    90   1600 +7                           6*      9    16    12  63  "      15    82    550 --                           7*     13    10    14  63  no     0     95   1500 +5                           8      13    10    14  63  SnO.sub.2                                                                             3     93   1880 +3                           9      13    10    14  63  "      5     90   1800 -4                           10*    13    10    14  63  "      15    77    450 --                           ______________________________________                                          Note)                                                                          In table 3, asterisked samples are samples beyond the range of the presen      invention, and -- indicates "unmeasurable", and the unit of τf is          ppm/°C.                                                           

As can be seen from Table 3, the dielectric constant εr is slightly decreased, while the Q value is effectively increased by a maximum of 30% by containing SnO₂. Particularly, the Q value takes maximum value when the content is in the vicinity of 3 to 5 parts by weight. However, the Q value is rapidly decreased if the content is not less than 10 parts by weight.

On the other hand, the absolute value of the temperature coefficient τf is low, i.e., not more than 10 ppm/°C., thereby to obtain a good ceramic composition.

The ranges of w, x, y and z in the microwave dielectric ceramic composition having a composition according to the present embodiment can be respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50.0 mole %, 0.0 mole % <y≦30.0 mole %, and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %.

In the present embodiment, the content of SnO₂ is adjusted, thereby to make it possible to obtain a dielectric suitable for a microwave band. The content is thus suitably adjusted, thereby to make it possible to make the Q value large, although the dielectric constant is slightly decreased in a state where the temperature coefficient is kept low.

Description is now made of an embodiment in which in a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Sm₂ O₃ -z.TiO₂ as in the above described embodiment, zinc oxide (ZnO), cobalt oxide (COO), nickel oxide (NiO) or magnesium oxide (MgO) is used as an additive.

The additive is formed in the same manner as that in the above described embodiment. Samples to be measured which differ in mixture ratio in a case where ZnO, CoO, NiO or MgO is mixed as shown in respective columns of sample numbers in Table 4 were prepared, and the dielectric constant (εr), the Q value and the temperature coefficient of resonance frequency (τf) were measured in the neighborhood of the measurement frequency of 3 GHz with respect to the samples to be measured. Table 4 also shows the results of the measurements.

                  TABLE 4                                                          ______________________________________                                         Dielectric Properties of Ceramics of a w · Li.sub.2 O - x             · CaO -                                                               y · Sm.sub.2 O.sub.3 - z · TiO.sub.2 System (additive;       ZnO, CoO, NiO, MgO)                                                                   composition                                                                    ratio                part                                               sample (mole %)             by                                                 number w     x     y   z   additive                                                                              weight                                                                               εr                                                                          Q    τf                       ______________________________________                                         1*     9     16    12  63  no     0     105  1500 +9                           2      9     16    12  63  ZnO    1.5   97   1940 +6                           3      9     16    12  63  "      3     83   2290 -4                           4      9     16    12  63  "      5     78   2350 -20                          5      9     16    12  63  "      10    62   1950 -28                          6*     9     16    12  63  "      15    43   1150 -45                          7      9     16    12  63  CoO    1.5   98   1890 +7                           8      9     16    12  63  "      3     85   2050 +4                           9      9     16    12  63  "      5     80   2250 -14                          10     9     16    12  63  "      10    66   1910 -25                          11*    9     16    12  63  "      15    45   1540 -41                          12     9     16    12  63  NiO    1.5   100  1880 +13                          13     9     16    12  63  "      3     89   2050 +7                           14     9     16    12  63  "      5     83   2230 -16                          15     9     16    12  63  "      10    69   1850 -28                          16*    9     16    12  63  "      15    50   1430 -48                          17     9     16    12  63  MgO    1.5   92   2010 -8                           18     9     16    12  63  "      3     80   2340 -15                          19     9     16    12  63  "      5     75   2400 -24                          20     9     16    12  63  "      10    58   2130 -30                          21*    9     16    12  63  "      15    40   1530 -55                          ______________________________________                                          Note)                                                                          In Table 4, asterisked samples are samples beyond the range of the presen      invention, and the unit of τf is ppm/°C.                      

As can be seen from Table 4, the dielectric constant εr is slightly decreased, while the Q value is greatly increased by containing any one of ZnO, CoO, NiO and MgO. Particularly, the Q value takes maximum value when the content is in the vicinity of 3 to 5 parts by weight. However, the dielectric constant εr is extremely decreased if the content exceeds 5 parts by weight.

Furthermore, the absolute value of the temperature coefficient τf is low, i.e., not more than 30 ppm/°C., thereby to obtain a good ceramic composition.

The ranges of w, x, y and z in the microwave dielectric ceramic composition having a composition according to the present embodiment can be respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50.0 mole %, 0.0 mole % <y≦30.0 mole %, and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %.

In the present embodiment, the content of ZnO, CoO, NiO or MgO is adjusted, thereby to make it possible to obtain a dielectric suitable for a microwave band. The content is thus suitably adjusted, thereby to make it possible to make the Q value large, although the dielectric constant is slightly decreased in a state where the temperature coefficient is kept low.

As described in the foregoing, when the microwave dielectric ceramic composition in each of the above described embodiments of the present invention is used for, for example, a resonator, the additive may be suitably selected and used in consideration of the above described tendency in a case where the content of the additive is changed.

Furthermore, when the microwave dielectric ceramic composition in each of the above described embodiments of the present invention is utilized for a microwave, it is fit for practical use even if the dielectric constant is low particularly when the Q value and the temperature coefficient are important design parameters.

Description is now made of a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Nd₂ O₃ -z.TiO₂ according to a suitable embodiment of the present invention.

In manufacturing processes of the microwave dielectric ceramic composition according to the suitable embodiment, powders of Li₂ CO₃,CaCO₃, Nd₂ O₃ and TiO₂ which are raw materials were prepared, and were weighed and mixed so as to be predetermined molar fractions, respectively.

As one example, the powders of Li₂ O, CaO, Nd₂ O₃ and TiO₂ were so weighed and mixed that the respective molar fractions are 9 mole %, 16 mole %, 12 mole % and 63 mole %. 3 parts by weight of MnO₂ was weighed and mixed, as shown in a column of a sample number 3 in Table 5 as appended later.

The mixed powder was then blended in a ball mill over 5 to 20 hours by the wet blending using alcohol and then, was calcined at temperatures of 700° to 1000° C. for 1 to 5 hours. Thereafter, the calcined powder thus obtained was ground using the ball mill for 2 to 50 hours.

The ground calcined powder was granulated after an organic binder such as polyvinyl alcohol was added thereto, was classified and then, was formed so as to have predetermined dimensions and a predetermined shape by applying a pressure of 2000 to 3000 kg/cm². A forming member obtained was sintered at temperatures of 1200° to 1400° C. for 1 to 5 hours and then, both surfaces of the sintered forming member were so polished that the thickness of the sintered forming member becomes approximately one-half of the diameter thereof, thereby to complete a sample to be measured having the above described composition.

The dielectric constant (εr), the Q value and the temperature coefficient of resonance frequency (τf) were measured in the neighborhood of the measurement frequency of 3 GHz using the Hakki-Coleman method with respect to the sample thus completed. The results of the measurements are shown in Table 5.

Samples to be measured which differ in mixture ratio in a case where MnO₂ is mixed or Bi₂ O₃ is mixed in place of MnO₂ as shown in respective columns of the other sample numbers in Table 5 were prepared in the same manner, and the dielectric constant (εr), the Q value and the temperature coefficient of resonance frequency (τf) in the neighborhood of the measurement frequency of 3 GHz were measured with respect to the samples to be measured. Table 5 also shows the results of the measurements.

                                      TABLE 5                                      __________________________________________________________________________     Dielectric Properties of Ceramics of a w · Li.sub.2 O - x             · CaO -                                                               y · Sm.sub.2 O.sub.3 - z · TiO.sub.2 System (additive;       MnO.sub.2, Bi.sub.2 O.sub.3)                                                        composition ratio                                                                              part                                                      sample                                                                              (mole %)        by                                                        number                                                                              w x  y  z  additive                                                                            weight                                                                             εr                                                                          Q    τf                                      __________________________________________________________________________     1*   9 12 11.5                                                                              67.5                                                                              no   0   122  750  +15                                         2    9 12 11.5                                                                              67.5                                                                              MnO.sub.2                                                                           1.5 118  920  +11                                         3    9 12 11.5                                                                              67.5                                                                              "    3   114  1220 +9                                          4    9 12 11.5                                                                              67.5                                                                              "    5   108  900  -10                                         5    9 12 11.5                                                                              67.5                                                                              "    10  100  770  -15                                         6*   9 12 11.5                                                                              67.5                                                                              "    15  93   270  --                                          7    9 12 11.5                                                                              67.5                                                                              Bi.sub.2 O.sub.3                                                                    1.5 121  850  +14                                         8    9 12 11.5                                                                              67.5                                                                              "    3   119  1050 +11                                         9    9 12 11.5                                                                              67.5                                                                              "    5   115  870  -5                                          10   9 12 11.5                                                                              67.5                                                                              "    10  108  760  -12                                         11*  9 12 11.5                                                                              67.5                                                                              "    15  92   230  --                                          12*  3.5                                                                              8  18 70.5                                                                              no   0   94   1550 -2                                          13   3.5                                                                              8  18 70.5                                                                              MnO.sub.2                                                                           3   90   2030 -9                                          14   3.5                                                                              8  18 70.5                                                                              "    5   88   1700 -16                                         15*  3.5                                                                              8  18 70.5                                                                              "    15  71   400  --                                          16   3.5                                                                              8  18 70.5                                                                              Bi.sub.2 O.sub.3                                                                    3   93   1850 -7                                          17   3.5                                                                              8  18 70.5                                                                              "    5   91   1630 -14                                         18*  3.5                                                                              8  18 70.5                                                                              "    15  81   320  --                                          __________________________________________________________________________      Note)                                                                          In table 5, asterisked samples are samples beyond the range of the presen      invention, -- indicates "unmeasurable", and the unit of τf is              ppm/°C.                                                           

As can be seen from Table 5, the dielectric constant εr is slightly decreased, while the Q value is effectively increased by containing MnO₂ or Bi₂ O₃. Particularly, the Q value takes maximum value when the content is in the vicinity of 3 to 5 parts by weight. However, the Q value is rapidly decreased if the content exceeds 10 parts by weight.

On the other hand, the absolute value of the temperature coefficient τf is low, i.e., not more than 30 ppm/° C., thereby to obtain a good ceramic composition.

The ranges of w, x, y and z in the microwave dielectric ceramic composition having a composition according to the present embodiment can be respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50.0 mole %, 0.0 mole % <y≦30.0 mole %, and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %.

Although in the present embodiment, the content of MnO₂ or Bi₂ O₃ is adjusted, thereby to make it possible to obtain a dielectric suitable for a microwave band, the content is thus suitably adjusted, thereby to make it possible to make the Q value large, although the dielectric constant is slightly decreased in a state where the temperature coefficient is kept low.

Although in the present embodiment, manganese dioxide is used as manganese oxide, the present invention is not limited to the same. Even if manganese oxide which differ in valence such as manganese monoxide or manganese sesquioxide is used, entirely the same effect is produced. The same is true for bismuth oxide.

Description is now made of an embodiment in which in a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Nd₂ O₃ -z.TiO₂ as in the above described embodiment, Nb₂ O₅ or Ta₂ O₅ is used as an additive.

The additive is formed in the same manner as that in the above described embodiment. Samples to be measured which differ in mixture ratio in a case where Nb₂ O₅ or Ta₂ O₅ is mixed as shown in respective columns of sample numbers in Table 6 were prepared, and the dielectric constant (εr), the Q value and the temperature coefficient of resonance frequency (τf) were measured in the neighborhood of the measurement frequency of 3 GHz with respect to the samples to be measured. Table 6 also shows the results of the measurements.

                                      TABLE 6                                      __________________________________________________________________________     Dielectric Properties of Ceramics of a w · Li.sub.2 O - x             · CaO -                                                               y · Nd.sub.2 O.sub.3 - z · TiO.sub.2 System (additive;       Nb.sub.2 O.sub.5, Ta.sub.2 O.sub.5)                                                 composition ratio                                                                              part                                                      sample                                                                              (mole %)        by                                                        number                                                                              w x  y  z  additive                                                                            weight                                                                             εr                                                                          Q    τf                                      __________________________________________________________________________     1*   9 12 11.5                                                                              67.5                                                                              no   0   122  750  +15                                         2    9 12 11.5                                                                              67.5                                                                              Ta.sub.2 O.sub.5                                                                    1.5 120  1150 +13                                         3    9 12 11.5                                                                              67.5                                                                              "    3   117  1170 +11                                         4    9 16 11.5                                                                              67.5                                                                              "    5   110  850  -7                                          5    9 12 11.5                                                                              67.5                                                                              "    10  103  650  -15                                         6*   9 12 11.5                                                                              67.5                                                                              "    15  97   250  --                                          7    9 12 11.5                                                                              67.5                                                                              Nb.sub.2 O.sub.5                                                                    1.5 120  1160 +14                                         8    9 12 11.5                                                                              67.5                                                                              "    3   119  1190 +12                                         9    9 12 11.5                                                                              67.5                                                                              "    5   111  880  -5                                          10   9 12 11.5                                                                              67.5                                                                              "    10  101  670  -14                                         11*  9 12 11.5                                                                              67.5                                                                              "    15  92   310  --                                          12*  3.5                                                                              8  18 70.5                                                                              no   0   94   1550 -2                                          13   3.5                                                                              8  18 70.5                                                                              Ta.sub.2 O.sub.5                                                                    3   93   1930 -9                                          14   3.5                                                                              8  18 70.5                                                                              "    5   90   1650 -16                                         15*  3.5                                                                              8  18 70.5                                                                              "    15  79   350  --                                          16   3.5                                                                              8  18 70.5                                                                              Nb.sub.2 O.sub.5                                                                    3   92   1950 -7                                          17   3.5                                                                              8  18 70.5                                                                              "    5   88   1680 -14                                         18*  3.5                                                                              8  18 70.5                                                                              "    15  76   340  --                                          19*  11                                                                               16 12 61 no   0   131  1000 +38                                         20   11                                                                               16 12 61 Ta.sub.2 O.sub.5                                                                    3   127  1230 +30                                         21   11                                                                               16 12 61 "    5   122  1100 +25                                         22*  11                                                                               16 12 61 "    15  113  240  --                                          23   11                                                                               16 12 61 Nb.sub.2 O.sub.5                                                                    3   128  1250 +29                                         24   11                                                                               16 12 61 "    5   125  1090 +23                                         25*  11                                                                               16 12 61 "    15  110  260  --                                          26*  3.5                                                                              12 12 72.5                                                                              no   0   103  1030 +24                                         27   3.5                                                                              12 12 72.5                                                                              Ta.sub.2 O.sub.5                                                                    3   101  1290 +19                                         28   3.5                                                                              12 12 72.5                                                                              Nb.sub.2 O.sub.5                                                                    3   100  1310 +17                                         __________________________________________________________________________      Note)                                                                          In Table 1, asterisked samples are samples beyond the range of the presen      invention, -- indicates "unmeasurable", and the unit of τf is              ppm/°C.                                                           

As can be seen from Table 6, the dielectric constant εr is slightly decreased, while the Q value is effectively increased by containing Nb₂ O₅ or Ta₂ O₅. Particularly, the Q value takes maximum value when the content is in the vicinity of 3 to 5 parts by weight. However, the Q value is rapidly decreased if the content exceeds 10 parts by weight.

On the other hand, the absolute value of the temperature coefficient τf is low, i.e., not more than 30 ppm/° C., thereby to obtain a good ceramic composition.

The ranges of w, x, y and z in the microwave dielectric ceramic composition having a composition according to the present embodiment can be respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50.0 mole %, 0.0 mole % <y≦30.0 mole %, and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %.

In the present embodiment, the content of Nb₂ O₅ or Ta₂ O₅ is adjusted, thereby to make it possible to obtain a dielectric suitable for a microwave band. The content is thus suitably adjusted, thereby to make it possible to make the Q value large, although the dielectric constant is slightly decreased in a state where the temperature coefficient is kept low.

Description is now made of an embodiment in which in a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Nd₂ O₃ -z.TiO₂ as in the above described embodiment, SnO₂ is used as an additive.

The additive is formed in the same manner as the above described embodiment. Samples to be measured which differ in mixture ratio in a case where SnO₂ is mixed as shown in respective columns of sample numbers in Table 7 were prepared, and the dielectric constant (εr), the Q value and the temperature coefficient of resonance frequency (τf) were measured in the neighborhood of the measurement frequency of 3 GHz with respect to the samples to be measured. Table 7 also shows the results of the measurements.

                  TABLE 7                                                          ______________________________________                                         Dielectric Properties of Ceramics of a w · Li.sub.2 O - x             · CaO -                                                               y · Nd.sub.2 O.sub.3 - z · TiO.sub.2 System (additive;       SnO.sub.2)                                                                     sam-                                                                           ple  composition            part                                               num- ratio (mole %)         by                                                 ber  w     x     y    z    additive                                                                              weight                                                                               εr                                                                          Q    τf                       ______________________________________                                         1*   9     12    11.5 67.5 no     0     122   750 +15                          2    9     12    11.5 67.5 SnO.sub.2                                                                             1.5   121  1050 +13                          3    9     12    11.5 67.5 "      3     117  1070 +11                          4    9     12    11.5 67.5 "      5     113   850 -8                           5    9     12    11.5 67.5 "      10    103   750 -15                          6*   9     12    11.5 67.5 "      15     97   300 --                           7*   3.5    8    18   70.5 no     0      94  1550 -2                           8    3.5    8    18   70.5 SnO.sub.2                                                                             3      90  1880 -9                           9    3.5    8    18   70.5 "      5      87  1670 -13                          10   3.5    8    18   70.5 "      15     75   370 --                           ______________________________________                                          Note)                                                                          In table 7, asterisked samples are samples beyond the range of the presen      invention, -- indicates "unmeasurable", and the unit of τf is              ppm/°C.                                                           

As can be seen from Table 7, the dielectric constant εr is slightly decreased, while the Q value is effectively increased by containing SnO₂. Particularly, the Q value takes maximum value when the content is in the vicinity of 3 to 5 parts by weight. However, the Q value is extremely decreased if the content exceeds 10 parts by weight.

On the other hand, the absolute value of the temperature coefficient is low, i.e., not more than 20 ppm/° C., thereby to obtain a good ceramic composition.

The ranges of w, x, y and z in the microwave dielectric ceramic composition having a composition according to the present embodiment can be respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50 0 mole % 0.0 mole % <y≦30 0 mole %, and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %.

Although in the present embodiment, the content of SnO₂ is adjusted, thereby to make it possible to obtain a dielectric suitable for a microwave band, the content is thus suitably adjusted, thereby to make it possible to make the Q value large, although the dielectric constant is slightly decreased in a state where the temperature coefficient is kept low.

Description is now made of an embodiment in which in a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.Nd₂ O₃ -z.TiO₂ as in the above described embodiment, zinc oxide (ZnO), cobalt oxide (COO), nickel oxide (NiO) or magnesium oxide (MgO) is used as an additive.

The additive is formed in the same manner as in the above described embodiment. Samples to be measured which differ in mixture ratio in a case where ZnO, CoO, NiO or MgO is mixed as shown in respective columns of sample numbers in Table 8 were prepared, and the dielectric constant (εr), the Q value and the temperature coefficient of resonance frequency (τf) were measured in the neighborhood of the measurement frequency of 3 GHz with respect to the samples to be measured. Table 8 also shows the results of the measurements.

                                      TABLE 8                                      __________________________________________________________________________     Dielectric Properties of Ceramics of a w · Li.sub.2 O - x             · CaO -                                                               y · Nd.sub.2 O.sub.3 - z · TiO.sub.2 System (additive;       ZnO, CoO, NiO, MgO)                                                                 composition     part                                                      sample                                                                              ratio (mole %)  by                                                        number                                                                              w  x y  z  additive                                                                            weight                                                                             εr                                                                         Q    τf                                       __________________________________________________________________________     1*   9  12                                                                               11.5                                                                              67.5                                                                              no   0   122 750  +15                                          2    9  12                                                                               11.5                                                                              67.5                                                                              ZnO  1.5 118 990  +6                                           3    9  12                                                                               11.5                                                                              67.5                                                                              "    3   102 1150 +4                                           4    9  12                                                                               11.5                                                                              67.5                                                                              "    5   89  1220 -15                                          5    9  12                                                                               11.5                                                                              67.5                                                                              "    10  74  920  -25                                          6*   9  12                                                                               11.5                                                                              67.5                                                                              "    15  56  550  -38                                          7    9  12                                                                               11.5                                                                              67.5                                                                              CoO  1.5 118 960  +13                                          8    9  12                                                                               11.5                                                                              67.5                                                                              "    3   104 1100 +7                                           9    9  12                                                                               11.5                                                                              67.5                                                                              "    5   92  1180 -12                                          10   9  12                                                                               11.5                                                                              67.5                                                                              "    10  76  890  -23                                          11*  9  12                                                                               11.5                                                                              67.5                                                                              "    15  57  540  -40                                          12   9  12                                                                               11.5                                                                              67.5                                                                              NiO  1.5 119 960  +12                                          13   9  12                                                                               11.5                                                                              67.5                                                                              "    3   105 1080 +5                                           14   9  12                                                                               11.5                                                                              67.5                                                                              "    5   93  1130 -17                                          15   9  12                                                                               11.5                                                                              67.5                                                                              "    10  78  860  -28                                          16*  9  12                                                                               11.5                                                                              67.5                                                                              "    15  58  520  -42                                          17   9  12                                                                               11.5                                                                              67.5                                                                              MgO  1.5 114 1010 +6                                           18   9  12                                                                               11.5                                                                              67.5                                                                              "    3   99  1240 -7                                           19   9  12                                                                               11.5                                                                              67.5                                                                              "    5   86  1310 -24                                          20   9  12                                                                               11.5                                                                              67.5                                                                              "    10  69  990  -29                                          21*  9  12                                                                               11.5                                                                              67.5                                                                              "    15  51  640  -48                                          __________________________________________________________________________      Note)                                                                          In table 8, asterisked samples are samples beyond the range of the presen      invention, and the unit of τf is ppm/°C.                      

As can be seen from Table 8, the dielectric constant εr is slightly decreased, while the Q value is greatly increased by containing one of ZnO, CoO, NiO and MgO. Particularly, the Q value takes maximum value when the content is in the vicinity of 3 to 5 parts by weight. However, the dielectric constant εr is extremely decreased if the content exceeds 5 parts by weight.

Furthermore, the absolute value of the temperature coefficient τf is low, i.e., not more than 30 ppm/° C., thereby to obtain a good ceramic composition.

The ranges of w, x, y and z in the microwave dielectric ceramic composition having a composition according to the present embodiment can be respectively 0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50.0 mole %, 0.0 mole % <y≦30.0 mole %, and 0.0 mole % <z≦80.0 mole %, where w+x+y+z=100 mole %.

In the present embodiment, the content of ZnO, CoO, NiO or MgO is adjusted, thereby to make it possible to obtain a dielectric suitable for a microwave band. The content is thus suitably adjusted, thereby to make it possible to make the Q value large, although the dielectric constant is slightly decreased in a state where the temperature coefficient is kept low.

As described in the foregoing, when the microwave dielectric ceramic composition in each of the above described embodiments of the present invention is used for, for example, a resonator, the additive may be suitably selected and used in consideration of the above described tendency in a case where the content of the additive is changed.

Furthermore, when the microwave dielectric ceramic composition according to each of the above described embodiments of the present invention is utilized for a microwave, it is fit for practical use even if the dielectric constant is low particularly when the Q value and the temperature coefficient are important design parameters.

Although in the present invention, one additive is contained, two or more types of additives as described above may be combined and contained. Also in this case, the same effect as that in the present invention can be expected, although the respective amounts of addition must be decreased.

Furthermore, although in the present invention, MnO2, Bi₂ O₃ or the like is used as the additive, selenium oxide, tellurium oxide, tungsten oxide, a rare earth oxide group or the like may be used in addition to the additive described in each of the above described embodiments. Also in this case, the same effect as that in the present invention can be expected.

Additionally, although in the invention of the present application, Sm₂ O₃ or Nd₂ O₃ is used as a part of a main component, the same effect can be expected with respect to a composition using Pr₆ O₁₁, Eu₂ O₃ or La₂ O₃ in place of Sm₂ O₃ or Nd₂ O₃.

Although the present invention has been described and illustrated in detail, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, the spirit and scope of the present invention being limited only by the terms of the appended claims. 

What is claimed is:
 1. In a microwave dielectric ceramic composition expressed by a composition formula of w.Li₂ O-x.CaO-y.A₂ O₃ -z.TiO₂, wherein A is selected from Sm and Nd, and w, x, y and z are in the following ranges:0.0 mole % <w≦25.0 mole %, 0.0 mole % ≦x≦50.0 mole %, 0.0 mole % <y≦30.0 mole %, 0.0 mole % <z≦80.0 mole %,the microwave dielectric ceramic composition being characterized in that not more than 10 parts by weight of one selected from manganese oxide, bismuth oxide, niobium oxide, tantalum oxide and tin oxide is contained in 100 parts by weight of w.Li₂ O-x.CaO-y.A₂ O₃ -z.TiO₂ wherein w+x+y+z=100%.
 2. The microwave dielectric ceramic composition according to claim 1, wherein not less than 3 nor more than 5 parts by weight of one selected from manganese oxide, bismuth oxide, niobium oxide, tantalum oxide and tin oxide is contained in 100 parts by weight of w.Li₂ O-x.CaO-y.A₂ O₃ -z.TiO₂.
 3. The microwave dielectric ceramic composition according to claim 2, wherein MnO₂ is used as manganese oxide.
 4. The microwave dielectric ceramic composition according to claim 2, wherein Bi₂ O₃ is used as bismuth oxide.
 5. The microwave dielectric ceramic composition according to claim 1, wherein MnO₂ is used as manganese oxide.
 6. The microwave dielectric ceramic composition according to claim 1, wherein Bi₂ O₃ is used as bismuth oxide. 